Gamma rays emerging from neutron stars at the hearts of supernova explosions could solve the mystery of dark matter — in just ...

The researchers found that the emitted dark matter would ring space-time like a bell around the black hole. It would not be ...

The nature of dark matter has puzzled astronomers since discovering that 85% of the universe's matter is invisible through ...

Axions are the most likely candidate for enigmatic dark matter that dominates the universe. Astrophysicists are searching for evidence of high-mass axions produced during supernovae. Scientists ...

Researchers believe that observing gamma rays from a supernova could confirm the existence of axions, potentially solving the ...

Physicists find themselves wishing upon a star (to explode) to solve one of the most frustrating questions in science.

It is believed that a cloud of hypothetical particles called axions, which are believed to be the true identity of dark matter that makes up a quarter of the universe, is generated around extreme ...

The particles that make up dark matter could be created right at the start of a supernova. However, we would need a bit of ...

This is why they’re also called ghost particles. However, for the first time, two dark matter experiments have detected a neutrino fog, a dense cloud of neutrinos. This discovery is reported by ...

Having a parent suffering from mental illness can be socially isolating for children, who may at times find it awkward to ...

A new study suggests that the next nearby supernova could provide a window into the elusive nature of dark matter.